CN103080498A

CN103080498A - Bearing housing of an exhaust-gas turbocharger

Info

Publication number: CN103080498A
Application number: CN2011800357085A
Authority: CN
Inventors: J·霍恩巴赫
Original assignee: BorgWarner Inc
Current assignee: BorgWarner Inc
Priority date: 2010-08-16
Filing date: 2011-08-04
Publication date: 2013-05-01
Anticipated expiration: 2031-08-04
Also published as: US9260981B2; US20130149116A1; CN103080498B; WO2012024092A2; JP2013534296A; DE112011102728T5; KR101829715B1; KR20130099026A; JP5784124B2; WO2012024092A3

Abstract

The invention relates to a bearing housing (1) of an exhaust-gas turbocharger (24), having a mounting bore (2), having a bearing device (3) which has two bearing bushes (4, 5) arranged in the mounting bore (2), between which bearing bushes is arranged a spacer (6), and having a rotational speed sensor (7) which is fixed in a bearing housing recess (9) and which engages into a sensor recess (8) of the spacer (6), wherein a resilient sleeve (10) is arranged in the bearing housing recess (9) around the rotational speed sensor (7) and engages with one end (11) into the sensor recess (8).

Description

The bearing housing of exhaust turbine supercharger

The present invention relates to a kind of bearing housing of preamble according to claim 1.

The bearing housing of one kind class has a mounting hole, has arranged a bearing means for the axle that exhaust turbine supercharger is installed in this mounting hole.Described bearing means has two bearing sleeves, and these bearing sleeves spacing is each other determined by a spacer element that arranges between these bearing sleeves.In addition, this bearing housing has a speed probe, this speed probe is fixed in bearing housing depression and this speed probe is bonded among the sensor recess of spacer element because speed probe must be directly towards rotor shaft to be used for signal measurement.If must replace this speed probe in the maintenance period, thereby this spacer element can rotate and hinder the assembling of this speed probe, or even damage whole system.

Therefore, an object of the present invention is to provide a kind of bearing housing specified in the preamble of claim 1, this bearing housing can prevent the rotation of this spacer element in this speed probe process of replacement.

Described purpose is that these features by claim 1 realize.

Because speed probe is arranged in a resilient sleeve in this bearing housing depression and can be fixed in this bearing housing and with a termination and be incorporated in this sensor recess, for this purpose, described resilient sleeve stretches out this bearing housing depression, this spacer element just can be fixed on its position, and this speed probe is changed on the ground, position that so just can be independent of this spacer element.

Multinomial dependent claims relates to a plurality of favourable improvement of the present invention.

At one particularly in the preferred embodiment, this sleeve be in be bonded on this sensor recess among relative that end of an end stationary wedge spare is equipped with, this stationary wedge spare has the chamfering of cutting sth. askew at its axially spaced two ends, and this chamfering is bonded on one of this bearing housing correspondingly in the groove that form, that be equipped with chamfering.In this way, it is lower to use corresponding instrument just also this sleeve non-destructive ground might be dismantled from bearing housing, if necessary.

One further concrete preferred embodiment also promoted described ability to dismantle, this sleeve or this sleeve body are equipped with at least three sections in this embodiment, these sections can form by otch for example is provided in sleeve body.In this case, this stationary wedge spare is divided into a plurality of wedge shape part sections, and the number of these wedge shape part sections is corresponding to the number of the section of this sleeve.

Further details of the present invention, advantage and feature can manifest from the explanation of following exemplary based on accompanying drawing, in the accompanying drawings:

Fig. 1 shows the perspective view that can be equipped with according to the partly cut-away of an embodiment of an exhaust turbine supercharger of bearing housing of the present invention,

Fig. 2 shows the sectional view according to the simplified schematic of the part of bearing housing of the present invention,

Fig. 3 shows the zoomed-in view of details A among Fig. 2, and

Fig. 4 shows the phantom view of schematically slightly simplifying according to a sleeve of bearing housing of the present invention.

Fig. 1 has showed that according to a kind of exhaust turbine supercharger 24 of the present invention, it has a turbo machine 26 and a compressor 25, and they interconnect by a bearing housing 1, and an axle 27 has been installed in this bearing housing.This exhaust turbine supercharger 24 is self-evident also to possess every other conventional components, but will these parts be elaborated, because they are not requirement for explanation principle of the present invention.

Fig. 2 has showed the part of the invention bearing housing 1 of this turbosupercharger 24.This bearing housing 1 has a mounting hole 2, has arranged to be used for a bearing means 3 of this axle 27 at this mounting hole 2.This bearing means 3 has two bearing sleeves 4 and 5 that are arranged in this mounting hole 2, and has arranged a spacer element 6 between these bearing sleeves,

Bearing housing 1 according to Fig. 2 also has a speed probe 7.This speed probe 7 is fixed (for example twist and connect) in bearing housing depression 9.In addition, this speed probe 7 is bonded among the sensor recess 8 of this spacer element 6, so that as close as possible this axle 27 arranges this speed probe to come for reliable picking up signal.

Fig. 2 also shows the protuberance of a resilient sleeve 10, and this resilient sleeve is arranged in this bearing housing depression 9 around this speed probe 7.This bearing housing depression 7 is stretched out at radial direction R in the lower end 11 of the sleeve 10 in the selected diagram, and thereby be bonded among this sensor recess 8, in order to can guarantee to be independent of a kind of undesirable rotation of this spacer element 6 of this speed probe 7.

In Fig. 3, showed details A with zoomed-in view, in order to clearly show that this sleeve 10 fixing in this bearing housing 1.This sleeve 10 has a stationary wedge spare 13 at it with those end 12 places that an end 11 that is bonded among this sensor recess 8 arranges on the contrary.Fig. 3 has showed the assembled state of this sleeve 10, and wherein said stationary wedge spare 13 engages or is locked among the fixed groove 14 of this bearing housing 1.

Show at Fig. 3 one particularly in the preferred embodiment, this stationary wedge spare 13 has the wedge shape chamfering 15 and 16 of cutting sth. askew at the place, both sides, thereby causes a kind of design of similar truncated cone.As shown in Figure 3, this fixed groove 14 has the groove chamfering 17 and 18 of cutting sth. askew corresponding with the design of this wedge shape chamfering 15 and 16, like this, consider the elastic characteristic of this sleeve 10, this stationary wedge spare 13 can flexibly be locked among the fixed groove 14 when described sleeve is inserted in this bearing housing depression 9.If must dismantle this sleeve 10, might use suitable instrument that sleeve 10 is upwards pulled out this bearing housing depression 9, because, when in this case toward each other these

chamferings

15 and 18 operation that abuts against each other of location, this stationary wedge spare 13 rebounds and so can place with this fixed groove 14 with being disengaged.

Fig. 4 shows the perspective view of schematically slightly simplifying of this sleeve 10, and this diagram shows an other concrete preferred embodiment.This sleeve 10 has a sleeve body 19, and in this example, this sleeve body 19 is equipped with three

sections

20,21 and 22.In this case, this stationary wedge spare 13 is divided into three wedge shape part sections 23,24' and 25', and these wedge shape part sections are assigned to

section

20,21 and 22, as shown in Figure 4.

In the embodiment that Fig. 4 shows, section 20 to 22 is to be formed by otch 26', 27' and 28 in this sleeve body (19), as from Fig. 4 in detail as seen.

To the written disclosure of the present invention, reference is showed diagram of the present invention in Fig. 1 and 2 clearly hereby except above.

Reference list

1 bearing housing

2 mounting holes

3 bearing meanss

4,5 bearing sleeves

6 spacer elements

7 speed probes

8 sensor recess

9 bearing housinges depression

10 sleeves

One end of 11 sleeves

The other end of 12 sleeves

13 stationary wedge spares

14 fixed grooves

15,16 wedge shape chamferings

17,18 groove chamferings

19 sleeve body

The section of 20,21,22 sleeve body

23,24', 25' wedge shape part section

26', 27', 28 otch

24 exhaust turbine superchargers

25 compressors

26 turbo machines

27 axles

The R radial direction

Claims

1. the bearing housing (1) of an exhaust turbine supercharger (24),

-have a mounting hole (2),

-having a bearing means (3), this bearing means has two bearing sleeves (4,5) that are arranged in this mounting hole (2), has arranged a spacer element (6) between these bearing sleeves (4,5), and

-having a speed probe (7), this speed probe is fixed in the bearing housing depression (9), and this speed probe is bonded among the sensor recess (8) of this spacer element (6),

It is characterized in that

-one resilient sleeve (10) is arranged in this bearing housing depression (9) around this speed probe (7), and is bonded among this sensor recess (8) with an end (11).

2. bearing housing according to claim 1 (1), it is characterized in that this sleeve (10) locates to be equipped with a stationary wedge spare (13) at its other end (12), under assembled state, this stationary wedge spare is bonded among the fixed groove (14) of this bearing housing (1).

3. bearing housing according to claim 2 (1), it is characterized in that this stationary wedge spare (13) is equipped with a plurality of wedge shape chamferings (15 of cutting sth. askew in both sides, 16), and this fixed groove (14) complementary a plurality of groove chamferings (17,18) of cutting sth. askew are equipped with.

4. according to claim 1 to one of 3 described bearing housinges (1), it is characterized in that this sleeve (10) has a sleeve body (19), this sleeve body is equipped with at least three sections (20 to 22).

5. bearing housing according to claim 4 (1) is characterized in that this stationary wedge spare (13) is divided into and the corresponding a plurality of wedge shape part sections of the number of section (20 to 22) (23,24' and 25').

6. according to claim 4 or 5 described bearing housinges, it is characterized in that these sections (20 to 22) form by the otch in this sleeve body (19) (26', 27' and 28).